Thermally switched absorptive window shutter
First Claim
1. A thermally switchable device for use in a building or vehicle for regulating transmission and absorption of solar radiant energy incident on the building or vehicle, the device comprisingtwo absorptive polarizers oriented with respect to each other such that respective polarization directions of the absorptive polarizers are orthogonal;
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Accused Products
Abstract
The thermally switched absorptive optical shutter may be a self-regulating “switchable absorber” device that may absorb approximately 100% of incoming light above a threshold temperature, and may absorb approximately 50% of incoming light below a threshold temperature. The shutter may be formed by placing a thermotropic depolarizes between two absorptive polarizers. This control over the flow of radiant energy may occur independently of the thermal conductivity or insulation of the shutter device and may or may not preserve the image and color properties of incoming visible light. This has energy-efficiency implications as it can be used to regulate the internal temperature and illumination of buildings, vehicles, and other structures without the need for an external power supply or operator signals. The shutter device has unique optical properties that are not found in traditional windows, skylights, stained glass, light fixtures, glass blocks, bricks, or other building materials.
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Citations
20 Claims
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1. A thermally switchable device for use in a building or vehicle for regulating transmission and absorption of solar radiant energy incident on the building or vehicle, the device comprising
two absorptive polarizers oriented with respect to each other such that respective polarization directions of the absorptive polarizers are orthogonal; - and
a thermotropically-actuated liquid crystal positioned between the two absorptive polarizers that transitions between an ordered, twisted nematic state and a disordered, isotropic state at a threshold surface temperature caused by solar heating of the device, wherein the liquid crystal has an insignificant effect on incident solar energy in the isotropic state and acts as a depolarizer in the twisted nematic state to rotate a first polarity of solar radiant energy passing through a first of the absorptive polarizers to a second polarity oriented to pass through a second of the absorptive polarizers. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An insulating glass unit that regulates transmission and absorption of solar radiant energy emitted from the sun comprising
a first plate of glass; -
a second plate of glass; a first absorptive polarizer having a first polarization direction positioned between the first plate of glass and the second plate of glass; a second absorptive polarizer positioned between the first plate of glass and the second plate of glass having a second polarization direction oriented orthogonally with respect to the first polarization direction of the first absorptive polarizer; and a thermotropically-actuated liquid crystal positioned between the first absorptive polarizer and the second absorptive polarizer that transitions between an ordered, twisted nematic state and a disordered, isotropic state at a threshold surface temperature caused by solar heating of the insulating glass unit, wherein the liquid crystal has an insignificant effect on incident solar radiant energy in the isotropic state and acts as a depolarizer in the twisted nematic state to rotate a first polarity of solar radiant energy passing through the first absorptive polarizer to a second polarity oriented to pass through the second absorptive polarizer. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A spandrel that regulates transmission and absorption of solar radiant energy emitted from the sun comprising
a plate of glass; -
a first absorptive polarizer having a first polarization direction positioned adjacent the first plate of glass; a second absorptive polarizer positioned parallel with the first absorptive polarizer and having a second polarization direction oriented orthogonally with respect to the first polarization direction of the first absorptive polarizer; and a thermotropically-actuated liquid crystal positioned between the first absorptive polarizer and the second absorptive polarizer that transitions between an ordered, twisted nematic state and a disordered, isotropic state at a threshold surface temperature caused by solar heating of the spandrel, wherein the liquid crystal has an insignificant effect on incident solar radiant energy in the isotropic state and acts as a depolarizer in the twisted nematic state to rotate a first polarity of solar radiant energy passing through the first absorptive polarizer to a second polarity oriented to pass through the second absorptive polarizer. - View Dependent Claims (17, 18, 19, 20)
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Specification